肉类研究
肉類研究
육류연구
MEAT RESEARCH
2011年
6期
16-19
,共4页
磺胺%密度泛函理论%分子印迹
磺胺%密度汎函理論%分子印跡
광알%밀도범함이론%분자인적
sulfonamides%density functional theory%molecular imprinting
以磺胺类药物(SFAs)为模板分子,甲基丙烯酸(MAA)为功能单体,模拟研究磺胺类约物的分子印迹聚合物。通过密度泛函理论的计算,分析反应介质对印迹聚合物制备过程的影响,并从分了水、卜卜研究SFAs—MAA之间的结合作用,为制备合理的印迹聚合物提供参考。
以磺胺類藥物(SFAs)為模闆分子,甲基丙烯痠(MAA)為功能單體,模擬研究磺胺類約物的分子印跡聚閤物。通過密度汎函理論的計算,分析反應介質對印跡聚閤物製備過程的影響,併從分瞭水、蔔蔔研究SFAs—MAA之間的結閤作用,為製備閤理的印跡聚閤物提供參攷。
이광알류약물(SFAs)위모판분자,갑기병희산(MAA)위공능단체,모의연구광알류약물적분자인적취합물。통과밀도범함이론적계산,분석반응개질대인적취합물제비과정적영향,병종분료수、복복연구SFAs—MAA지간적결합작용,위제비합리적인적취합물제공삼고。
In this study, we computationally investigated preparation of molecularly imprinted polymers (MIPs) that can bind three commonly used veterinary sulfonamides (SFAs) including sulfisoxazole (SIZ), sulfanilamide (SNM) and sulfamethazine (SM2) using methyl methacrylate (MAA) as the functional monomer. The effect of different reaction media on MIPs preparation was analyzed through calculations based on the density functional theory, and the SFAs-MAA binding was explored at the molecular level with the aim of providing theoretical guidance for preparing reasonable molecularly imprinted polymers.
